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Encyclopedia Britannica - Main :: BUN-CAL |
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C26H28014 +2H20 = 2 C6H,2O6 +C14H804 Ruberythric acid = Glucose
Alizarin was known to the ancients, and until 1868 was obtained entirely from madder root. The first step in the synthetical production of alizarin was the discovery in 1868 of C. Graebe and C. Liebermann that on heating
caustic
long , being superseded by another, discovered simultaneously by the above-named chemists and by Sir W. H. Perkin; the method being to sulphonate anthraquinone, and then to convert the sulphonic acid into its sodium salt and fuse this with caustic
In practice, the crude anthracene is purified by solution in the higher pyridine
calcium salt by digestion with hot milk of lime, then filtered and the calcium salt decomposed by acid. The precipitated alizarin is then well washed and made into a paste with water, in which form it is put on to the market.K. Lagodzinski (Berichte, 1895, 28, p. 1427) has synthesized alizarin by condensing hemipinic acid [(CH3O)2C6H2(COOH)2] with benzene in the presence of aluminium chloride. The product on acidification gives a compound C15H12O5H2O which is probably an oxy-methoxy-benzoyl benzoic acid. This is dissolved in cold concentrated sulphuric acid, in which it forms a yellowish red solution, but on heating
can also be synthesized by heating catechol with phthalic anhydride and sulphuric acid at 150 C. C6H4 Pure alizarin crystallizes in red prisms melting at 290 C. It is insoluble in water, and not very soluble in alcohol. It dissolves readily in caustic alkalis on account of its phenolic character, and it forms a yellow-coloured di-acetate. Its value as a dyestuff depends on its power of forming insoluble compounds (lakes) with metallic oxides. It has no affinity for vegetable fibres, and consequently cotton
Numerous derivatives of alizarin are known. On solution in glacial acetic acid and addition of nitric acid, (3-nitroalizarin OH CON OH (alizarin orange) 1 1 is produced, and this on heating. `/NCO/N/NO2 with sulphuric acid and glycerin is converted into alizarin blue. The trioxyanthraquinonespurpurin, anthrapurpurin, anthragallol and flavopurpurinare also very valuable dyestuffs. These compounds may be represented by the following formulae: OH OH OH ,CO OI;OH HO/\/COa/\OH /CO /\OH /CO\/\OH 0co /0 I\)NCO/L) HOV CO/0 0 CO/UGH. uH I'urpurin. Anthrapurpurin. Flavopurpurin. Anthragallol. Purpurin (1.2.4 trioxyanthraquinone) is found with alizarin in madder root; it is now prepared synthetically by oxidizing alizarin with manganese dioxide and sulphuric acid. After the separation of the silver salt (see above) obtained on sulphonating anthraquinone, the remaining acid liquid gives on treatment with calcium carbonate the calcium salt of anthraquinone 2.6 disulphonic acid (anthraquinone-a-disulphonic acid). This is converted into the sodium salt by means of sodium carbonate, and on alkali fusion yields flavopurpurin. In a similar manner anthrapurpurin is prepared by alkali fusion of anthraquinone 2.8 disulphonic acid. Anthragallol is synthetically prepared by the condensation of benzoic and gallic acids with sulphuric acid OH OH / COOH+ i ~OH O/COQ/\OH J HOOC\/OH-2H.0 { NCO/IL/10H or from pyrogallol and phthalic anhydride in the presence of sulphuric acid or zinc chloride. A. Baeyer in 1890, by heating alizarin with fuming sulphuric acid for 24-48 hours at 35-40 C., obtained a product, which after treatment with caustic soda gave a sulphuric acid ester of quinalizarin, and this after acidification and boiling was converted into quinalizarin (Alizarin Bordeaux) or 1.2.6.9 tetra-oxyanthraquinone. Penta-oxyanthraquinones have been obtained from purpurin and anthrapurpurin, while a hexaoxyanthraquinone has been obtained from 1.5 dinitro-anthraquinone. End of Article: C26H28014 If you wish, you can link directly to this article.
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